线粒体
自噬
类风湿性关节炎
细胞内
细胞生物学
巨噬细胞
免疫学
生物
癌症研究
医学
遗传增强
嵌合体(遗传学)
细胞
材料科学
转基因
再生医学
关节炎
移植
炎症
分泌物
自身免疫性疾病
治疗方法
作者
Fuxiao Wang,Hao Zhang,Dongyang Zhou,Xuan Tang,Jian Wang,Han Liu,Xiuhui Wang,Yuanwei Zhang,Z. Li,Yingying Jiang,Qin Zhang,Xiao Chen,Yingying Jing,Y. Jun Xu,Yan Hu,Lu Bai,Jiacan Su
标识
DOI:10.1002/adma.202514070
摘要
Rheumatoid arthritis (RA) is a chronic autoimmune disease with limited therapeutic effectiveness of conventional biomaterials, which often lack targeted accuracy, delivery efficiency, and biocompatibility. Here, we present a biomimetically engineered carrier material using mitochondria as "living materials" to restore cell homeostasis in RA. The dual action carrier consists of a folic acid-modified macrophage membrane targeting activated M1 macrophages in RA joints, and it enables in situ mitochondrial transfer with more than twofold increase of delivery efficiency, which is a critical limitation of current approaches. By facilitating precise intracellular transfer of healthy mitochondria, and incorporating autophagy targeting chimera 4 (AUTAC4) in order to selectively destroy dysfunctional mitochondria, this design achieves complete mitochondrial renewal, increasing energy metabolism and homeostasis. In an RA model, the Dual-Action Mitochondrial Renewal Therapy (DAMRT) showed significant therapeutic potential. It could be used as a novel platform for treatment for RA and other mitochondrial dysfunction.
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